DE102010061506A1 - Electric heating cable has heating unit that is formed with carbon fiber bundle comprising several carbon fiber yarns, where carbon fiber yarns with porous structure are formed from metal particles - Google Patents

Abstract

The electric heating cable has a heating unit (10) that is formed with carbon fiber bundle comprising several carbon fiber yarns. An insulating sheath (20) is provided surrounding the heating unit. The carbon fiber bundle is formed by wrapping or twisting carbon fiber yarns with glass fiber, fiber-stone, or ceramic fiber formed of aromatic polyamide. The carbon fiber yarn with porous structure is formed from metal particles.

Description

BACKGROUND OF THE INVENTION

(a) Environment of the invention

The present invention relates to a carbon fiber electric heating cable, particularly an electric heating cable, wherein the carbon fiber yarn in a carbon fiber bundle is modified so as to improve the heat conductivity on the one hand, reduce the resistance, on the other hand to increase the thermal diffusion coefficient, to reduce the weight and to improve the water absorbency so as to achieve a better efficiency of electric heating.

(b) Description of the conventional embodiment

For example, a technique that uses primarily a compressor for heat exchange, but the equipment and the heat source are extremely expensive. Therefore, its economic benefits must be carefully considered.

On the other hand, there is another technique for electric heating which can be used as a heat source, which method uses electric heating cables which are highly dependent on all kinds of industries and their merchandise, with electric heating cables made of carbon fibers which are in widespread use today are. In a general heating principle of electrical heating technology, a conductive loop is primarily used to generate heat energy from its resistance by passing electrical current. However, since the majority of the conductive loop electric heating elements are designed in advance so as to be appropriately installed at specific locations depending on the type and demand of commodities, the single electric heating element can not be fully used in all commodities , which leads to an insufficient production efficiency and therefore the economic advantage can not be effectively improved. For increased heating, because of a limitation of the manufacturing machines, a plurality of heating elements are usually connected in series to meet the required efficiency for heating. In addition, in this method, there is the problem of a required high voltage and a load restriction of the electric current of the conductive loop.

SUMMARY OF THE INVENTION

The main object of the present invention is to provide a carbon fiber electric heating cable, this embodiment comprising a heating unit and an insulating sheath of the heating unit, this heating unit comprising a carbon fiber bundle consisting of a plurality of carbon fiber yarns or a structure comprising a sheath, an interlacing or a sheath comprises a braided sheath of the carbon fiber bundle with at least one element of a glass fiber bundle, a stone fiber bundle, a ceramic fiber bundle and a DuPont ^Kevlar® fiber bundle (aromatic polyamide bundle).

In the present invention, in order to avoid low water absorbency and high resistance of an existing carbon fiber electric heating cable, an outer surface of carbon fiber yarn in the above-mentioned carbon fiber electric heating cable is enveloped primarily with a metal particle structure having a large surface area, in which case the metal particles are so modified to increase the thermal conductivity and to reduce the resistance of the carbon fiber yarn.

In the present invention, in order to avoid low water absorbency and high resistance of an existing carbon fiber electric heating cable, the carbon fiber yarn of the above-mentioned carbon fiber electric heating cable is treated primarily with modification of the metal layer cladding to form a double-layered metal layer structure to improve the thermal conductivity as well as to reduce the resistance of the carbon fiber yarn.

In the present invention, for avoiding low water absorbency and high resistance of an existing carbon fiber electric heating cable, the carbon fiber yarn of the above-mentioned carbon fiber electric heating cable is treated primarily with a high frequency (high cycle) modification to form a structure. whose surface is graphitized to reduce the resistance of the carbon fiber yarn.

In the present invention, in order to avoid a low water absorbency and a high resistance of an existing carbon fiber electric heating cable, the carbon fiber yarn of the above-mentioned carbon fiber electric heating cable is treated primarily with a modification of an acid or alkali sizing to form a porous structure so the water absorbency of the carbon fiber yarn, to increase the thermal diffusion coefficient and to reduce the weight.

In the present invention, the above-mentioned insulating sheath may be made of a heat-resistant or a braided sheath. This heat-resistant enclosure may include a fluoroelastomer, silicon, PU (polyurethane), PVC (polyvinyl chloride), PE (polyethylene), PP (polypropylene), PET (polyester), nylon (or polyamide), or a PI cladding (polyimide); wherein the braided sheath may consist of at least one glass fiber bundle, stone fiber bundle, ceramic fiber bundle or a DuPont ^Kevlar® fiber bundle.

In addition to insulation against the electric current, with the above-mentioned insulating cover, the carbon fiber bundle can also be protected against abrasion and breakage, the heat-resistant covering having a better waterproof property and having a greater heat loss, so that this embodiment is preferred for heating the water. On the other hand, the braided sheath is provided with voids so that the heat is released easily. For this reason, the braided sheath is capable of adjusting the heat, and therefore the heat can be much less lost, but the waterproof property is impaired. Therefore, the braided wrapper is preferably used for purposes other than water, such as clothing or textiles.

In the present invention, the braided sheath consists of at least one of the following bundles: glass fiber bundles, stone fiber bundles, ceramic fiber bundles, and the DuPont ^Kevlar® fiber bundle.

In the present invention, the metal particles are in the form of a sphere, rod, cube, rectangle, pyramid, or other geometric object shape.

The mode of application of the carbon fiber electric heating cable according to the present invention has the advantages that the carbon fiber yarn has a lower resistance, a better water absorbency, a higher. Thermal diffusion coefficient and a lighter weight.

For a better understanding of the above objects and technical methods of the present invention, the brief description of the drawings below is followed by a detailed description of the preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

1 shows a schematic view of an electric heating cable made of carbon fibers according to the present invention.

2 shows a schematic view of a cross section of 1 according to the present invention.

3 shows a schematic view of the structure of a carbon fiber bundle according to the present invention.

4 Fig. 12 is a schematic view of the structure of a braided carbon fiber bundle according to the present invention.

5 shows a schematic view of the structure of a carbon fiber yarn according to the present invention, the surface of which is provided with metal particles with a large surface area.

6 shows a schematic view of the structure of the metal particles in all in the 5 shown forms according to the present invention.

7 shows a schematic view of the structure of a double-layered carbon fiber yarn whose surface is provided with a metal layer, according to the present invention.

8th shows a schematic view of the structure of a double-layer carbon fiber yarn whose surface is provided with a graphite layer, according to the present invention.

9 shows a schematic view of the structure of a porous carbon fiber yarn according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Both 1 and 2 show the 1 a schematic view of an electric heating cable made of carbon fibers according to the present invention, while in the 2 a schematic view of a cross section of the in the 1 shown carbon fiber heating cable is shown. Like in the 1 and in the 2 As shown, the electric heating cable is made of carbon fibers, and this electric heating cable is made of a heating unit 10 and an insulating sheath 20 around the heating unit 10 consists. The insulated cladding 20 may be a heat-resistant or a braided enclosure. The heat-resistant enclosure may be a fluoroelastomer, silicon, PU, PVC, PE, PP, PET nylon or PI sheath; wherein the braided sheath of one of the following bundles may be composed: a glass fiber, Steinfaser-, ceramic fiber or from a DuPont Kevlar ^® -bundle, as in the 1 shown. In addition to insulating electrical current, the above-mentioned insulating sheath is also capable of protecting the carbon fiber bundle against attrition and breakage; wherein the heat-resistant envelope has a better waterproof property, but the heat is rather lost, so this embodiment is preferably used for heating water. On the other hand, the braided sheath has gaps so that the heat is easily released. Therefore, the braided sheath is able to adjust the heat while losing less heat. However, the braided sheath is less waterproof. Accordingly, the braided wrapper is preferably used for purposes other than water, such as clothing or textiles.

As this continues in the 3 shown is the heating unit 10 as a carbon fiber bundle made of a plurality of carbon fiber yarns 101 exists, or as in the 4 Shown to be embodied as a structure formed by cladding, braiding or braided wrapping of the carbon fiber bundle with at least one of a glass fiber, a stone fiber, a ceramic fiber and an aromatic polyamide bundle (the DuPont ^Kevlar® fiber bundle).

On the other hand, to improve the thermal conductivity and to reduce the resistance, as in the 5 shown a surface of the carbon fiber yarn 101 in the carbon fiber bundle with a structure of metal particles 102 be provided, these metal particles 102 may be in any shape, such as in the form of a sphere, 102 , a pole 102b , a cube 102c , a rectangle 102d , a pyramid 102e or in any other form, such as in the 6 shown. Like in the 7 The carbon fiber yarn can be shown 101 from a double-layered structure with a metal layer 103 be built around the surface; being, as in the 8th shown the carbon fiber yarn 101 from a double-layered structure with a graphite layer 104 can be built on the surface. Next, the carbon fiber yarn 101 be constructed of a porous structure, as in the 9 shown.

• 1. Die Oberfläche des Kohlenstofffasergarns ist mit Metallpartikeln mit einem großen Oberflächenbereich versehen, um den Widerstand zu reduzieren und die Wärmeleitfähigkeit zu verbessern.
• 2. Das Kohlenstofffasergarn besteht aus der doppelschichtigen Struktur mit der Metallschicht auf der Oberfläche, um den Widerstand zu reduzieren und die Wärmeleitfähigkeit zu verbessern.
• 3. Das Kohlenstofffasergarn besteht aus der doppelschichtigen Struktur mit der Graphitschicht auf der Oberfläche, um den Widerstand zu reduzieren und die Wärmeleitfähigkeit zu verbessern.
• 4. Das Kohlenstofffasergarn besteht aus der porösen Struktur, um den Thermodiffusions-Koeffizienten zu erhöhen, das Gewicht zu reduzieren und die Wasseraufnahmefähigkeit zu verbessern.

Accordingly, the mode of application of the present invention has the following advantages:

• 1. The surface of the carbon fiber yarn is provided with metal particles having a large surface area to reduce the resistance and improve the thermal conductivity.
• 2. The carbon fiber yarn consists of the double-layered structure with the metal layer on the surface to reduce the resistance and improve the thermal conductivity.
• 3. The carbon fiber yarn consists of the double-layered structure with the graphite layer on the surface to reduce the resistance and improve the thermal conductivity.
• 4. The carbon fiber yarn consists of the porous structure to increase the thermal diffusion coefficient, to reduce the weight and to improve the water absorbency.

It is to be understood, however, that the embodiments described herein are intended to illustrate the principles of the invention only as exemplified and that those skilled in the art can make a variety of modifications to these embodiments without departing from the spirit and scope of the invention as set forth in the following claims set out to depart.

Claims (10)

Electric heating cable with carbon fibers, comprising a heating unit ( 10 ) made as a carbon fiber bundle of a plurality of carbon fiber yarns ( 101 ), and an insulating sheath ( 20 ) around this heating unit ( 10 ). Carbon fiber electric heating cable according to claim 1, characterized in that the carbon fiber bundle is formed by cladding, intertwining or twisting with at least one element of a glass fiber, a stone fiber, a ceramic fiber or an aromatic polyamide bundle. Carbon fiber electrical heating cable according to claim 1, characterized in that a surface of the carbon fiber yarn ( 101 ) as a structure of metal particles ( 102 ) is formed with a large surface area. Carbon fiber electrical heating cable according to claim 1, characterized in that the carbon fiber yarn ( 101 ) as a double-layered structure with a surrounding metal layer ( 103 ) is formed on the surface. Carbon fiber electrical heating cable according to claim 1, characterized in that the carbon fiber yarn ( 101 ) as a double-layered structure with a surrounding graphite layer ( 104 ) is formed on the surface. Carbon fiber electrical heating cable according to claim 1, characterized in that the carbon fiber yarn ( 101 ) is formed as a porous structure. Carbon fiber electrical heating cable according to claim 1, characterized in that the insulating sheath ( 20 ) is a heat-resistant tube or a braided tube. Carbon fiber electrical heating cable according to Claim 7, characterized in that the heat-resistant covering comprises a fluoroelastomer, silicon, PU (polyurethane), PVC (polyvinyl chloride), PE (polyethylene), PP (polypropylene), PET (polyester ), Nylon (or polyamide), or a PI sheath (polyimide). The carbon fiber electric heating cable according to claim 7, characterized in that the braided sheath is a braided sheath comprising at least one of the following bundles: glass fiber, stone fiber, ceramic fiber or an aromatic polyamide fiber bundle. Carbon fiber electrical heating cable according to claim 3, characterized in that the metal particles ( 102 ) the shape of a sphere, ( 102 ), a pole ( 102b ), a cube ( 102c ), a rectangle ( 102d ) or a pyramid ( 102e ) exhibit.

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